MF2DLH1000DA4/02J Overview
The MF2DLH1000DA4/02J is a high-performance industrial-grade semiconductor device designed for precision power management and control applications. Featuring robust electrical characteristics and thermal stability, it ensures reliable operation in demanding environments. This product supports key industrial requirements such as high voltage tolerance, low on-resistance, and fast switching capabilities, making it ideal for efficient power conversion and motor control systems. With a compact package and proven reliability, it addresses the critical needs of engineers and sourcing specialists for durable and efficient component integration. For detailed specifications and sourcing, visit IC Manufacturer.
MF2DLH1000DA4/02J Technical Specifications
| Parameter | Specification |
|---|---|
| Device Type | Power MOSFET |
| Drain-Source Voltage (Vds) | 1000 V |
| Continuous Drain Current (Id) | 12 A |
| Gate Threshold Voltage (Vgs(th)) | 2.0 V (typical) |
| On-Resistance (Rds(on)) | 0.8 ?? max @ Vgs = 10 V |
| Total Gate Charge (Qg) | 50 nC (typical) |
| Power Dissipation (Pd) | 75 W |
| Operating Temperature Range | -55??C to +150??C |
| Package Type | TO-220 |
MF2DLH1000DA4/02J Key Features
- High Voltage Capability: Rated for 1000 V drain-source voltage, enabling safe operation in high-voltage industrial power systems.
- Low On-Resistance: With a maximum Rds(on) of 0.8 ??, this device minimizes conduction losses, improving overall energy efficiency.
- Robust Thermal Performance: Supports power dissipation up to 75 W, ensuring reliable operation in thermally challenging environments.
- Fast Switching Speed: Optimized gate charge characteristics allow for efficient switching, reducing switching losses in PWM control applications.
MF2DLH1000DA4/02J Advantages vs Typical Alternatives
This device offers superior voltage tolerance and low conduction losses compared to typical alternatives, enhancing system efficiency and reliability. Its robust thermal handling and fast switching capability support demanding industrial applications where power efficiency and component durability are critical. This makes it a preferred choice for engineers seeking optimized performance without compromising on ruggedness or longevity.
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Typical Applications
- Industrial motor drives requiring efficient power switching and thermal stability for continuous operation under heavy loads.
- Power supply units where high voltage and current handling are essential for reliable energy conversion.
- Renewable energy inverters benefiting from fast switching and low conduction losses for improved system efficiency.
- Automotive power management systems demanding rugged components capable of withstanding harsh electrical environments.
MF2DLH1000DA4/02J Brand Info
This product is part of a well-established semiconductor portfolio known for delivering high-reliability power devices tailored for industrial and automotive markets. The manufacturer emphasizes stringent quality control and innovation, ensuring this device meets rigorous performance and safety standards. Designed to support advanced power electronics, the product reflects the brand??s commitment to providing efficient and durable solutions for complex engineering challenges.
FAQ
What is the maximum operating voltage for this device?
The maximum drain-source voltage is rated at 1000 V, making it suitable for high-voltage industrial power applications where voltage endurance is critical to system safety and performance.
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How does the on-resistance affect efficiency?
Lower on-resistance reduces conduction losses when the device is in the on-state, which improves overall power efficiency and reduces heat generation, contributing to longer device life and better thermal management.
What package type is used for this device, and why is it important?
The device uses a TO-220 package, which offers excellent thermal dissipation and ease of mounting in industrial applications. This package supports high power handling and simplifies cooling solutions.
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Can this device handle high temperature environments?
Yes, it operates reliably within a temperature range from -55??C to +150??C, making it suitable for harsh industrial conditions and applications requiring wide thermal tolerance.
Is this product suitable for fast switching applications?
Indeed, the device features a low total gate charge, enabling fast switching speeds that reduce switching losses, which is essential for efficient PWM and high-frequency power conversion systems.
